Sanitized vending machine having cup shielding mechanism

ABSTRACT

A sanitized vending machine includes product and cup dispensing mechanisms and an actuation mechanism. The product dispensing mechanism, holding product items, rotates through a product dispensing cycle to dispense them. The cup dispensing mechanism, holding a stack of cups, rotates through a cup dispensing cycle to dispense an empty cup to an intermediate location in a drop chute spaced above a final discharge location. Dispensing cycles occur in a predetermined sequence enabling the dispensed product items to be received in a previously dispensed empty cup. A cup shielding mechanism is actuated, in response to an access door being pivoted from a closed to open position, to translate from a retracted to extended position wherein any person reaching past the open access door into the machine is obstructed from being able to reach the empty cup at the intermediate location where the cup will receive product items during the next actuation cycle.

This patent application is a continuation of U.S. application Ser. No. 13/507,808, filed Jul. 30, 2012 now pending, which claims the benefit of U.S. provisional application No. 61/575,725 filed Aug. 26, 2011 and U.S. provisional application No. 61/631,747 filed Jan. 10, 2012. Each application identified above is hereby incorporated by reference in its entirety to provide continuity of disclosure.

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention generally relates to vending machines and, more particularly, is concerned with a sanitized vending machine having a cup shielding mechanism disposed below a drop chute that will actuate, in response to an access door on the machine being pivoted from a closed position to an opened position at the end of a given actuation cycle, to obstruct any person reaching past the access door into the machine from being able to reach a cup disposed at the intermediate location in the drop chute that will receive product items during a next actuation cycle.

2. Description of the Prior Art

Most prior art bulk coin-operated vending machines dispense their product items, such as candy or gum, into a non-removable cup fixed on, and ordinarily openable by manipulation of a pivotal flap mounted on the outside of, the housing of the machine which can be contacted and thus potentially contaminated by users' hands. The inventor of the subject matter disclosed herein has discerned that it is likely there are many potential users who would prefer alternative approaches for product items to be dispensed from bulk vending machines so that the dispensed product items cannot be contaminated through contact with parts of the vending machines which can be contacted and contaminated by users. An innovation which attempted to provide one alternative approach is disclosed in U.S. Pat. No. 7,066,351 by the inventor of the subject matter disclosed herein.

However, it is perceived by the inventor of the subject matter disclosed herein that a need still exists for other alternative approaches to sanitized dispensing from bulk coin-operated vending machines that incorporate appropriate mechanisms that assist in the fulfillment of such need.

SUMMARY OF THE INVENTION

The present invention relates to a sanitized vending machine that incorporates coordinating mechanisms that work to prevent all users from contaminating product items and parts of the machine that contact the product items, by only allowing the occurrence of certain actions within the machine and behind an external access door on the machine, and thus inaccessible to all users. These coordinating mechanisms generally result in, first, dispensing a cup from a stack thereof by dropping it via a drop chute to an intermediate location in the drop chute, second, dispensing one or more selected product items from a supply thereof by dropping them via the drop chute into the dispensed cup while retained at the intermediate location, and, third, concurrently releasing and dropping the dispensed cup containing the product items from the drop chute to a discharge location behind the access door and allowing a user to open the access door in order to remove the dispensed cup containing the product items from the discharge location. The dispensed cup with the product items therein can only be removed from the discharge location in the machine upon the access door being enabled to be opened due to a given user operating the machine to make a purchase through depositing the required coins into the machine and turning an external handle on the machine through a given actuation cycle. An appropriate one of these coordinating mechanisms must have the capability of being able to reliably obstruct any person reaching past the opened access door into the machine from being able to reach the empty cup disposed at the intermediate position above the discharge location.

The present invention provides an appropriate mechanism in the sanitized vending machine in the form of a cup shielding mechanism associated with the drop chute and coordinated with operation of the access door. The cup shielding mechanism, being disposed adjacent to the drop chute and the discharge location, will actuate, in response to the access door on the machine being pivoted from a closed position to an opened position at the end of a given actuation cycle, to obstruct any person reaching into the machine past the opened access door from being able to reach the empty cup disposed at the intermediate location in the drop chute above the discharge position that will receive product items during the next actuation cycle.

Accordingly, the present invention provides a sanitized vending machine which includes: a product dispensing mechanism adapted to hold a plurality of product items and rotate through a product dispensing cycle during which the product dispensing mechanism dispenses one or more of product items; a cup dispensing mechanism adapted to hold at least one stack of cups and rotate through a cup dispensing cycle during which the cup dispensing mechanism dispenses a cup from the stack; a drop chute disposed below and in communication with the product and cup dispensing mechanisms and being adapted to receive and guide dispensed product items and a dispensed cup to an intermediate location in the drop chute, being spaced below the product and cup dispensing mechanisms and above a discharge location, where the dispensed cup is temporarily retained awaiting receipt of dispensed product items therein, the drop chute being further adapted to release the dispensed cup in response to receipt of the dispensed product items therein and guide the same to the discharge location below the drop chute; an actuation mechanism including a rotatable actuator being adapted upon actuation to cause rotation of the product and cup dispensing mechanisms, and a handle coupled to the rotatable actuator and adapted to be turned by a user to actuate the rotatable actuator by rotating the rotatable actuator through an actuation cycle that causes rotation of the product and cup dispensing mechanisms through the respective product and cup dispensing cycles in a predetermined sequence so that dispensed product items during a next actuation cycle are received in the dispensed cup being located at the intermediate location thereby ensuring that only a cup with product items therein is dropped to the discharge location during each actuation cycle; an access door being movable between a closed position and an opened position to allow a user to remove a dispensed cup containing product items from the discharge location when the access door in the opened position; and a cup shielding mechanism disposed adjacent to the drop chute and the discharge location and being actuated, in response to the access door being pivoted from the closed position to the opened position, to translate from a retracted position to an extended position wherein the extended position any person reaching past the opened access door into the housing is obstructed from being able to reach the dispensed cup disposed at the intermediate location in the drop chute above the discharge location where the cup will receive product items during the next actuation cycle.

More particularly, the cup shielding mechanism includes a bed disposed adjacent to, below and rearwardly of the drop chute and adjacent to, above and rearwardly of the discharge location such that the bed extends horizontally in a rearward direction away from the access door, and a plank slideably mounted in a track formed on a top side of the bed so as to be translatable relative to the bed between the retracted and extended positions. The cup shielding mechanism further includes an arm fixed to and extending rearwardly from a back side of the access door such that the arm pivotally moves with the access door, and a resiliently yieldable arrangement stationarily anchored above the access door and extending between and interconnecting an end of the arm, a rear end of the plank and a rear end of the bed so as to cause the plank to slide relative to the bed to the extended position in response to the access door being pivoted open, wherein the plank underlies the bottom of an empty cup at the intermediate location in the drop chute, and to the retracted position in response to the access door being pivoted closed, wherein the plank is withdrawn from under the empty cup at the intermediate location in the drop chute.

These and other features and advantages of the present invention will become apparent to those skilled in the art upon a reading of the following detailed description when taken in conjunction with the drawings wherein there is shown and described an illustrative embodiment of the invention.

BRIEF DESCRIPTION OF THE DRAWINGS

In the following detailed description, reference will be made to the attached drawings in which:

FIG. 1 is a front elevational view of an exemplary embodiment of a sanitized vending machine in accordance with the present invention.

FIG. 2 is a side elevational view of the machine as seen along line 2-2 in FIG. 1.

FIG. 3 is a top plan view of the machine as seen along line 3-3 in FIG. 1.

FIG. 4 is an enlarged fragmentary elevational interior rear view of the front of the machine showing the backside of an actuation mechanism and an access door locking mechanism coordinated therewith.

FIG. 5 is an exploded perspective view of a well structure, a product dispensing mechanism, a cup dispensing mechanism, and outer and inner cup separator devices employed in the machine as seen in FIG. 6.

FIG. 6 is an enlarged vertically foreshortened view of the machine, with portions in sectional form, as seen generally along line 6-6 in FIG. 1.

FIG. 7 is an enlarged top plan view of the outer cup separator device of FIGS. 5 and 6.

FIG. 8 is a side elevational view of the outer cup separator device as seen along line 8-8 in FIG. 7.

FIG. 9 is an enlarged top plan view of a peripheral first driven gear on the product dispensing device drivingly intermeshed with a peripheral second driven gear on the cup dispensing mechanism of the machine as seen in FIG. 6.

FIG. 10A is a sectional view of a separation restraint device arm taken along line 10A-10A in FIG. 9.

FIG. 10B is a sectional view of a position restraint device rod taken along line 10B-10B in FIG. 9.

FIG. 11 is a sectional view of a cup stack depletion latching device employed in the machine taken along line 11-11 in FIG. 9.

FIG. 12 is a fragmentary side elevational view of the machine with portions broken away to illustrate a cup shielding mechanism employed in the machine.

FIG. 13 is a fragmentary top plan view of the cup shielding mechanism as seen along line 13-13 in FIG. 12.

FIG. 14 is a cross-sectional view of the cup shielding mechanism taken along line 14-14 in FIG. 13.

FIG. 15 is a fragmentary side elevational view similar to that of FIG. 12 but now showing a spring arrangement being employed by the cup shielding mechanism in place of the cable and spring arrangement shown in FIG. 12.

FIG. 16 is a fragmentary top plan view similar to that of FIG. 13 but now showing a portion of the spring arrangement employed by the cup shielding mechanism as shown in FIG. 15.

DETAILED DESCRIPTION OF THE INVENTION

Referring to the drawings, and particularly to FIGS. 1-3, there is illustrated an exemplary embodiment of a coin-operated sanitized vending machine, generally designated 10, in accordance with the present invention. The sanitized vending machine 10 basically includes a housing 12 and a vending unit 14. The housing 12 includes an upright base 16 and substantially horizontal top platform 18 peripherally supported above the upright base 16 upon an upper edge thereof. The vending unit 14 includes a product vending apparatus 20 and a cup dispenser apparatus 22 interfaced and supported in a substantially tandem arrangement with one another by the top platform 18 of the housing 12 such that the cup dispenser apparatus 22 is located behind the product vending apparatus 20.

Referring to FIGS. 1-3, 5 and 6, the product vending apparatus 20 of the vending unit 14 includes a merchandise storage magazine 24, a product dispensing mechanism 26, and a coin-operated actuation mechanism 28. The merchandise storage magazine 24 is supported upright by the top platform 18 above the housing 12 and defines a chamber 30 adapted for holding a plurality of product items P to be dispensed one or more at a time. The top platform 18 of the housing 12 has a well structure 32 affixed about and depending below an interior edge 33 of the platform 18 defining an opening 34 in the top platform 18.

The product dispensing mechanism 26 includes a product dispensing device 38 disposed through a front portion 34A of the opening 34 and within a front cavity 36 of the well structure 32 above a front bottom wall 32A thereof. The product dispensing device 38 is rotatably supported by a central tubular portion 38A thereof which fits over a pedestal 32C attached on and extending upwardly from the front bottom wall 32A. The product dispensing device 38 underlies the chamber 30 of the storage magazine 24 to receive the predetermined number of product items from the storage magazine 24 into each compartment 38B of the product dispensing device 38 radially extending outwardly from and circumferentially displaced about the central tubular portion 38A thereof. Upon rotation of the product dispensing device 38 through 120° of a 360° circular path of travel during each product dispensing cycle, the product items received in a given one of the compartments 38B are successively carried by the product dispensing device 38 under a stationary cover portion 26A of the product dispensing mechanism 26 and across an opening 40 in the front bottom wall 32A of the well structure 32 at which the product items then fall (in other words, are dispensed) through the opening 40.

The product dispensing device 38 also includes a first driven gear 42 defined about its lower periphery portion 38C. The well structure 32 has an opening 32E at a front end of the front cavity 36 facing the rear of the coin-operated actuation mechanism 28 of the product vending apparatus 20. Front portions of the product dispensing device 38 and the first driven gear 42 project through the front end opening 32E of the well structure 32 so that the first driven gear 42 can maintain an operative interfaced or driven relationship with the coin-operated actuation mechanism 28 as will be described hereinafter.

Referring to FIGS. 1-4 and 6, the coin-operated actuation mechanism 28 includes a mounting plate 44, a shaft 46, a handle 48, a coin carrier 50 and a drive gear 52. The mounting plate 44 mounts the coin-operated actuation mechanism 28 to the base 16 of the housing 12 by seating into an open top slot (not shown) defined in the housing base 16 below the upper edge thereof and forwardly of the product dispensing mechanism 26. The shaft 46 is rotatably mounted through and by the mounting plate 44 such that outer and inner end portions 46A, 46B of the shaft 46 extend to and are disposed at the exterior and interior of the housing base 16. The handle 48 is attached on the outer end portion 46A of the shaft 46 and thus disposed at the exterior of the housing 12 where the handle 48 may be gripped and turned by a user. The drive gear 52 is attached on the inner end portion 46B of the shaft 46 and thus disposed in the interior of the housing 12. The coin carrier 50 is attached along the shaft 46 and disposed in the interior of the housing between and spaced from the handle 48 and the drive gear 52. A user upon turning the handle 48 concurrently causes rotation of the shaft 46, coin carrier 50 and drive gear 52 within the housing 12. A one-way ratchet gear 54 is formed on a rear face of a wheel 56 attached along the shaft 46 in the interior of the housing 12 between the coin carrier 50 and drive gear 52. The ratchet gear 54 is engaged by a spring-loaded pawl 58 so that the shaft 46 can only be rotated in one direction, namely counterclockwise, as viewed in FIG. 4, upon turning the handle 48 clockwise, as viewed in FIG. 1. A peripheral edge portion 56A of the wheel 56 extends radially outward beyond the ratchet gear 54 and is provided with a recess or notch 56B at a six o'clock position about the wheel peripheral edge portion 56A. The purpose of the notch 56B will be explained hereinafter. The drive gear 52 and the wheel 56 may be considered together as a unit constituting a rotatable actuator that also will be explained hereinafter.

During a given actuation cycle, at least one coin is deposited by a user through a coin slot 60 along the top of the mounting plate 44. The coin is received by the coin carrier 50 which holds the coin as the handle 48 is turned by the user and the shaft 46, coin carrier 50 and drive gear 52 therewith are rotated through a 360° path of travel during the given actuation cycle. The rotation of the coin carrier 50 transfers the coin to and releases it at a coin storage location (not shown) in the housing base 16. The rotation of the drive gear 52, which underlies and drivingly meshes, interfaces or engages directly with the first driven gear 42 on the rotatable dispensing device 38, causes rotation of the first driven gear 42 and thus the product dispensing device 38 therewith. The ratio of the sizes of the respective gears 42, 52 is such that the first driven gear 42 and thus the product dispensing device 38 rotate through 120° each dispensing cycle in response to rotation of the shaft 46 and drive gear 52 by the turning of the handle 48 through the entire 360° circular path of travel during the given actuation cycle. Thus, the dispensing of one or more product items occurs from a successive one of the compartments 38B of the product dispensing device 38 through the product dispensing opening 40 in the front bottom wall 34A of the well structure 34 during each actuation cycle of the coin-operated actuation mechanism 28 of the product vending apparatus 20 of the vending unit 14.

Referring to FIGS. 3 and 5-8, the cup dispenser apparatus 22 of the vending unit 14 includes a cup dispensing mechanism 62 and outer and inner cup separator devices 64, 88. The vending unit 14 also includes a drop chute 66 disposed below and in communication with the product and cup dispensing mechanisms 26, 62. The cup dispensing mechanism 62 includes a cup magazine or holder device 68 disposed within a rear cavity 70 of the well structure 32 and being rotatably supported on a central pedestal 32D affixed upright on a rear bottom wall 32B of the well structure 32 (which rear bottom wall 32B is at a level lower than the level of the front bottom wall 32A). The cup holder device 68 includes a lower holder part 74 that is rotatably fitted over and supported by the central pedestal 32D and also by an interior ledge 32F of the well structure 32 such that the lower holder part 74 is disposed in a spaced relationship above the rear bottom wall 32B of the well structure 32. The cup holder device 68 also includes an upper holder part 76 (FIGS. 1 and 2) that seats and is fastened upon internally-threaded posts 72 (FIGS. 5 and 9) affixed on and extending upright from the lower holder part 74. The upper holder part 76 is thereby carried by the lower holder part 74 along a 360° circular path of rotational travel. The upper holder part 76 extends upwardly through a rear portion 34B of the opening 34 in the top platform 18 to above the top platform 18 of the housing 12, as seen in FIGS. 1 and 2.

The cup holder device 68 also includes multiple lower tubular columns 78 in the lower holder part 74 and multiple upper tubular columns 80 in the upper holder part 76 (FIGS. 1 and 2). The multiple lower and upper tubular columns 78, 80, such as three in number, are vertically aligned with one another. The vertically aligned lower and upper tubular columns 78, 80 also are disposed side-by-side and angularly displaced 120° from one another. The lower and upper tubular columns 78, 80 in the lower and upper holder parts 74, 76 of the cup holder device 68 are open at their opposite ends so as to define passageways 82, 84 through the tubular columns 78, 80 that allow insertion of stacks of cups C through the upper open ends of the upper holder part 76 and also communicate at the lower open ends of the lower holder part 74 with the cup drop chute 66 of the apparatus 22 when successively aligned with a cup dispensing opening 86 in the rear bottom wall 32B of the well structure 32 located below a portion of the cup holder device 68. The lower tubular columns 78 also have vertical outer and inner slots 78A, 78B formed therein which extend between their opposite ends along their outer and inner sides. The inner slots 78B extend from their upper ends and terminate a short distance above their lower ends. The vertical inner slots 78B provide space for insertion and support of the inner cup separator device 88 upon the central pedestal 32D by use of a fastener 90 which extends through a central bore in the lower holder part 74 and threads into the central pedestal 32D. The inner cup separator device 88 cooperates with the outer cup separator device 64, as will be further described hereinafter, to control separation of each lowermost cup LC from its stack as the cup holder device 68 rotatably moves through 120° of the 360° circular path of travel.

The cup dispensing mechanism 62 also includes a second driven gear 92 defined about the lower periphery of the lower holder part 74 of the cup holder device 68 on the top side of a peripheral flange 74A on the lower holder part 74 that overlies an interior ledge 32F in the rear cavity 70 of the well structure 32. The well structure 32 has an opening 93 at the intersection between its front and rear cavities 36, 70 such that as the product dispensing device first driven gear 42 rotates through the 360° circular path of travel, a rear portion thereof and a front portion of the cup dispensing mechanism gear 92 project through the opening 93 between the cavities 36, 70 of the well structure 32 and directly drivingly intermesh, engage or interface with one another. Such intermeshing will cause rotation of the cup holder device 68 through 120° of the 360° circular path of travel, and thus operation of the cup dispenser apparatus 22 through a cup dispensing cycle, upon rotation of the shaft 46 and drive gear 52 thereon by the turning of the handle 48 of the coin-operated actuation mechanism 28 through the 360° circular path of travel of a given actuation cycle to thereby cause the dispensing of the predetermined number of product items from one of the compartments 38B of the dispensing device 38 through the product dispensing opening 40 in the front bottom wall 32A of the well structure 32 and dispensing of a cup from one of the lower tubular columns 78 of the lower holder part 74 of the cup holder device 68 through the cup dispensing opening 86 in the rear bottom wall 32B of the well structure 32 in a manner that a cup C with product P therein will be delivered to an accessible location of the vending unit 14, as will be described hereinafter.

Referring to FIGS. 5-8, the outer cup separator device 64 of the cup dispenser apparatus 22 is incorporated on a bracket 118 described hereinafter. The bracket 118 incorporating the outer cup separator device 64 has an arcuate configuration so as to extend through about a 150° portion of the 360° circular path of travel of the cup holder device 68 such that the bracket 118 overlies as well as is disposed both upstream and downstream of the cup dispensing opening 86 whereas the outer cup separator device 64 overlies and extends a short distance inwardly beyond the outer side of the cup dispensing opening 86 beginning at the upstream end thereof.

The outer cup separator device 64 and the top of the inner cup separator device 88 are disposed in a spaced relationship above the rear bottom wall 32B of the well structure 32 at a height slightly greater than the height of one cup C and in a stationary relationship to the rotatable cup holder device 68. The top level of the outer cup separator device 64 lies in a horizontal plane just below the bottom level of the upper holder part 76 and aligned with the upper level of the lower holder part 74. The outer cup separator device 64 at its inner edge portion 64A extends tangentially to and slightly inwardly across through the outer slots 78A as their respective lower tubular columns 78 rotate past the outer cup separator device 64. The portion of the outer cup separator device 64 that overlies the cup dispensing opening 86 has an arcuate-shaped cam segment 94 defined therealong with a wedge-shaped or tapered entry end 94A that will ensure separation of the lowermost cup C from the next cup C above it in the stack S. To prevent the remaining stack of cups above the lowermost cup LC from also falling downward through the cup dispensing opening 86, the top of the inner cup separator device 88 has a radially outward protruding circular rim portion 88A extending through about 180° opposite from and co-extensive with the inner edge portion 64A of the outer cup separator device 64, The top rim R of the next higher cup C above the lowermost cup C of the two stacks approaching and leaving the location of the cup dispensing opening 86 overlies the inner edge portion 64A of the outer cup separator device 64 and the opposing rim portion 88A of the inner cup separator device 88 so as to support the remaining stack of cups thereon. The rim portion 88A of the inner cup separator device 88 is cut away for about the remaining 180° thereabout so as to withdraw support from the remaining stack of cups during travel through that portion of its circular path opposite from the location of the outer cup separator device 64, allowing the new lowermost cup and remaining stack to drop down onto the rear bottom wall 32B of the well structure 32 such that the top rim R of the new lowermost cup will be just below and thus pass under the inner edge portion 64A of the outer cup separator device 64 as well as below the protruding rim portion 88A of the inner cup separator device 88 in preparation for engaging with the wedge-shaped or tapered entry end 94A of the depending cam segment 94 of the outer cup separator device 64.

The dispensed empty cup drops downward through the funnel-shaped upper portion 66A of the drop chute 66 and into a substantially vertical lower portion 66B thereof until the top rim R of the released cup C encounters and is caught by a plurality of circumferentially-spaced apart pivotal protrusions or ledges 96 inwardly biased by springs 98 and mounted on pins 100 in recesses 102 at an intermediate location near where the upper portion 66A of the drop chute 66 merges into the lower portion 66B thereof. The cup C is stopped by the inwardly extended pivotal ledges 96, due to the bias of the springs 98, and temporarily held seated on the ledges 96 at the intermediate position about midway down the cup pathway until the product items guided by the drop chute 66 have dropped into the cup. The bias of the springs 98 is preselected such that the weight of the product and the cup is sufficient to overcome the bias of the springs 98 and cause the pivotal ledges 96 to pivot outwardly away from the cup C and allow the cup C with product items therein to drop to the final location on the base 16 of the housing 12 behind an exterior access door 104 pivotally mounted on the front of the vending machine 10 where cup C (FIG. 6) can be removed by the user opening the access door 104.

Referring to FIGS. 4 and 6, the vending unit 14 includes an access door locking mechanism 106 to control access of a user to the location in the base 16 behind the access door 104. The mechanism 106 maintains the access door 104 in a locked condition and thus disabled from providing access by a user until the handle 48 of the coin-operated actuation mechanism 28 is turned through the full 360° circular path of travel of a given actuation cycle such that upon reaching the end of the cycle the access door 104 is converted to an unlocked condition and may be opened by a user who then may reach in and remove the cup with the product items. The access door locking mechanism 106 includes an elongated rod 108 reciprocally mounted through a retainer member 110 secured on the inside surface 104A of the access door 104 and encircled by a spring 112 at a location intermediate the opposite upper and lower ends 108A, 108C of the rod 108. The spring 112 is disposed in a slot 110A in the retainer member 110 in a compressed condition between a collar on the lower end 108C of the rod 108 and an end of the slot 110A so as to bias the rod 108 upwardly to place the access door 104 in an unlocked condition.

The access door locking mechanism 106 also includes an arm-shaped lock actuation device 114 mounted in the base 16 of the housing 12 above and aligned with the rod 108 so as to undergo vertical reciprocal movement during a given actuation cycle in a channel 117 defined by a stationary bracket 115 fixed on the housing 12. An upper arm portion 114A of the lock actuation device 114 underlies the peripheral edge portion 56A of the rotatable actuator wheel 56 of the coin-operated actuation mechanism 18 such that the peripheral edge portion 56A engages the upper arm portion 114A and depresses the lock actuation device 114 and then the rod 108 downward against the bias of the spring 112 such that the lower end 108B is inserted into a hole 116 in the base 16 of the housing 12 below the access door 104, locking the door against being pivoted away from the housing 12. When the handle 48 of the mechanism 28 has been turned to the end of a complete 360° circular path of travel of a given actuation cycle, the upper arm portion 114A of the lock actuation device 114 becomes aligned with the notch 56B in the peripheral edge portion 56A of the wheel 56, allowing the upper arm portion 114A of the lock actuation device 114 and the rod 108 to move upward due to the bias force of the spring 112 and retract the lower end 108B from the hole 116 in the base 16 of the housing 12. The access door 104 can then be opened and the cup with product therein removed. This arrangement will ensure that the cup cannot be removed prematurely.

The flow of driving torque begins when, after a user deposits the appropriate number of coins into coin slot 60, the user turns the handle 48 of the mechanism 28 clockwise, as viewed in FIG. 1. Turning of the handle 48 rotates the shaft 46 and also rotates the actuation mechanism drive gear 52 and wheel 56 (constituting the components of the rotatable actuator) with the shaft 46, the rotation of the latter is counterclockwise as viewed in FIG. 4 which is in a direction opposite to that in FIG. 1. Rotation of the rotatable actuator drive gear 52 rotates the product vending apparatus first driven gear 42 and the product dispensing device 38 therewith which, in turn, rotates the cup dispenser apparatus second driven gear 92 and the cup holder device 68 therewith. The arrangements of the product dispensing device 38 and cup holder device 68 relative to their respective dispensing openings 40, 86 are such that each compartment 38B of the product dispensing device 38 travels over the product dispensing opening 40 before each passageway 82 through the lower holder part 74 of the cup holder device 68 travels over the cup dispensing opening 86; thus, the product items are dropped from the respective compartment 38B into the drop chute 66 before the cup is dropped from the respective passageway into the drop chute 66 during the same actuation cycle. However, the vending unit 14 is set up such that the empty cup dispensed at the completion of the previous actuation cycle is captured and retained by the pivotal protrusions or ledges 96 at the intermediate position in the drop chute 66 and thus will receive product items during the succeeding actuation cycle. When the product items drop into the cup their weight added to the cup's weight is sufficient to force outward retraction of the ledges 96, against the opposed biasing force applied by the springs 98, thereby releasing the cup (with the product therein) from the ledges 96 and allowing it to drop to the discharge location behind the access door 104. The next cup then dispensed, subsequent to the product items, at the completion of the same actuation cycle will be caught and retained by the ledges 96, which will have immediately extended toward one another due to the bias force applied on the ledges 96 by springs 98, for receiving product during the subsequent actuation cycle.

Referring now to FIGS. 5 and 9-14, there is illustrated five features for further enhancing the operation of the sanitized vending machine 10. Referring first to FIGS. 5, 9 and 10A, there is shown a bracket 118 mounted upon recessed shelves along the front and a side of the rear cavity 70 of the well structure 32 in overlying relation to the opening 93 at the intersection of the front and rear cavities 36, 70. Thus, the bracket 118 is spaced above the location of intermeshing of the gear 42 about the lower periphery of the dispensing device 38 with the second driven gear 92 on the lower periphery of the lower holder part 74 of the cup holder device 68. In addition to the above-described cup separator device 64, the bracket 118 incorporates a first of the five operation-enhancing features which is a separation restraint device in the form of an arm 120 attached to and depending from the bracket 118. As best seen in FIG. 10A, the arm 120 terminates just above and in a close positional relationship to an upper side of a flange 38D on the lower periphery portion 38C of the dispensing device 38. On the underside of the flange 38D is formed the first driven gear 42. The function of the depending arm 120 is to ensure that the first and second driven gears 42, 92 cannot separate from their interfacing relationship with one another and thus, in other words, to maintain the driving interfacing or intermeshing engagement of the first and second driven gears 42, 92 with one another.

Referring now to FIGS. 5, 9 and 10B, there is shown a second of the five operation-enhancing features which is a position restraint device in the form of a rod 124 having a spring-biased retractable tip 124A. The rod 124 is attached to and depends from the bracket 118 in a spaced relationship from the restraint arm 120 and generally parallel thereto. As best seen in FIG. 10B, the retractable tip 124A is spring biased to protrude downwardly into one of three depressions 126 formed at 120 degree intervals in the top of the flange 38D, marking the end of each product dispensing cycle so as to ensure that the dispensing device 38 is maintained in proper beginning alignment for the start of the next product dispensing cycle. The tip 124A is adapted to retract and permit rotation of the product dispensing device 38 in response to a subsequent actuation cycle.

Referring again to FIG. 9, there is also illustrated a third of the five operation-enhancing features which is in the form of a depression 128 formed in the rear bottom wall 32B of the well structure 32 at the upstream side of the cup dispensing opening 86 therein. The depression 128 ensures that the lowermost cup will release on time from the cup immediately above it as the one stack of cups is moved over the cup dispensing opening 86.

Referring now to FIGS. 9 and 11, there is shown a fourth of the five operation-enhancing features in the form of a latching device 130 mounted to exterior of the rear bottom wall 32B of the well structure 32 downstream from the cup dispensing opening 86. The latching device 130 has a link 132 biased by a spring 134 to move upwardly toward the rear bottom wall 32B. The link 132 at an inner end has attached thereto a first pin 136 which extends through a hole 138 in the rear bottom wall 32B in the path of the stack of cups as they are moved in a circular path upon the wall 32B. The link 132 at an outer end has attached thereto a second pin 140 which extends through a slot 142 formed vertically through the interior ledge 32F on the wall 32B and underlying a peripheral flange 74A of the lower holder part 74 of the cup holder device 68. The second pin 140 is aligned to insert into any one of multiple (three) recesses 144 formed on the underside of the peripheral flange 74A of the lower holder part 74 of the cup holder device 68. The latching device 130 functions to detect depletion of any one of the stacks of cups and in response thereto to stop the ability of the cup holder device 68 to rotate and thereby prevent a user from being able to turn the handle 48 of the coin-operated actuation mechanism 28. The weight of a single last cup of the stack thereof will be enough to depress the first pin 136 and the link 132 and thereby retract the second pin 140 away from above the wall 32B and the recesses 144. However, when the last cup has been used, then the spring 134 causes the first and second pins 136, 140 and the link 132 to elevate and the second pin 140 to protrude into a corresponding one of the recesses 144 and thereby lock the cup holder device 68 in a fixed state.

Referring to FIGS. 12-14, there is illustrated a last of the five operation-enhancing features in the form of a cup shielding mechanism 146 disposed rearwardly of and below the intermediate location on the drop chute 66 (FIG. 6), rearwardly or and above the discharge location behind the access door 104 on the housing 12. The cup shielding mechanism 146 is actuated, in response to the access door 104 being pivoted in the directions of the double arrows in FIG. 12 between closed and opened positions, to translate between retracted and extended positions, as shown in solid and broken line forms in FIG. 12. When the cup shielding mechanism 146 is in the extended position, any person reaching past the opened access door 104 into the housing 12 is obstructed or blocked from being able to reach the cup disposed at the intermediate location in the drop chute 66, spaced above the discharge location, which will receive product items during the next actuation cycle.

More particularly, the cup shield mechanism 146 includes a bed 148 disposed below and rearwardly of the drop chute 66 and above and rearwardly of the discharge location. More particularly, the bed 148 is mounted to a bracket 150 upstanding from the base 16 of the housing 12 such that the bed 148 extends horizontally from the bracket 150 in a rearward direction away from the access door 104. The cup shield mechanism 146 also includes a track 154 formed on a top side of the bed 148 and a plank 152 slidably mounted in the track 154 on the bed 148 so as to be translatable relative to the bed 148 between the retracted and extended positions. The cup shield mechanism 146 also includes an arm 156 that is fixed to, and extends within the housing 12 from, the back side of the access door 104 such that the arm 156 moves with the pivotal movement of the door 104, and a resiliently yieldable arrangement stationarily anchored above the access door 104 and extending between and interconnecting an end 156A of the arm 156, a rear end of the plank 152 and a rear end of the bed 148. The resiliently yieldable arrangement causes the plank 152 to slide relative to the bed 148 to the extended position in response to the access door 104 being pivoted open, wherein the plank 152 underlies the bottom of an empty cup C at the intermediate position in the drop chute 66 (FIG. 6). Further, the resiliently yieldable arrangement causes the plank 152 to slide relative to the bed 148 to the retracted position in response to the access door 104 being pivoted closed, wherein the plank 152 is withdrawn from under the empty cup C at the intermediate location in the drop chute 66.

As shown in FIGS. 12 and 13, in one exemplary embodiment, the resiliently yieldable arrangement of the cup shield mechanism 146 is in the form of a spring-and-cable arrangement 157 having a first spring 157A stationarily anchored to the housing 12 and connected to the arm 156 so as to apply a bias force to the arm 156 tending to pivot the door 104 to a closed position as seen in FIG. 12. The spring-and-cable arrangement 157 also has a second spring 157B and a cable 158 connected to a rear end 156A of the arm 156 and extending therefrom upwardly and over an elevated hook 160, then downwardly to and through a hole 162 in the bracket 150, then rearwardly to where it connects to the rear end of the plank 152. The spring-and-cable arrangement 157 further has a third spring 157C connected between a rear end of the bed 148 and the rear end of the plank 152. The third spring 157C applies a biasing force, through the second spring 157B, also tending to pivot the door 104 to the closed position, and applies a biasing force to the plant 152 tending to slide the plank 152 to its retracted position. The action of a user in opening the access door 104 overcomes the aforementioned biasing forces, causing the plank 152 to slide to its extended position.

In an alternative exemplary embodiment shown in FIGS. 15 and 16, the resiliently yieldable arrangement of the cup shield mechanism 146 is in the form of an angular spring arrangement 164 having a pair of interconnected springs 166A, 166B. The spring 166A is stationarily anchored on the housing 12 above the access door 104 and extends between the housing 12 and the rear end 156A of the arm 156. The spring 166B extends between the rear end 156A of the arm 156 and the rear end of the plank 152. Thus, the springs 166A, 166B of the all spring arrangement 164 replaces the first spring 157A, second spring 157B, cable 158, elevated hook 160 and hole 162 in bracket 150 of the spring-and-cable arrangement 157. The angular spring arrangement 164 retains the spring 157C connected between the rear end of the bed 148 and the rear end of the plank 152.

The angular spring arrangement 164 functions the same as the spring-and-cable arrangement 157 with respect to the access door 104 and plank 152. Both of the arrangements 157, 164 will cause the plank 152 to slide forwardly relative to the bed 148 to the extended position shown in dashed line form in FIGS. 12 and 15, wherein the plank 152 underlies the empty cup C at the intermediate position in the drop chute 66 in response to the access door 104 being pivoted open, and to slide rearwardly relative to the bed 148 to the retracted position shown in solid line form in FIGS. 12 and 15, wherein the plank 152 is withdrawn from under the empty cup at the intermediate location in response to the access door 104 being pivoted closed. When disposed at the extended position, the plank 152 will prevent a user or anyone reaching through the opening 164 in the housing 12 when the door 104 is open from reaching and contacting the next cup disposed at the intermediate location and thereby attempting to disrupt the steps involved in filling the next cup with product and dropping it to onto the dispensing location.

It is thought that the present invention and its advantages will be understood from the foregoing description and it will be apparent that various changes may be made thereto without departing from the spirit and scope of the invention or sacrificing all of its material advantages, the forms hereinbefore described being merely exemplary embodiments thereof. 

What is claimed is:
 1. A sanitized vending machine, comprising: a product dispensing mechanism adapted to hold a plurality of product items and rotate through a product dispensing cycle during which said product dispensing mechanism dispenses one or more of product items; a cup dispensing mechanism adapted to hold at least one stack of cups and rotate through a cup dispensing cycle during which said cup dispensing mechanism dispenses a cup from the stack; a drop chute disposed below and in communication with said product and cup dispensing mechanisms and being adapted to receive and guide dispensed product items and a dispensed cup to an intermediate location in said drop chute, being spaced below said product and cup dispensing mechanisms and above a discharge location, where the dispensed cup is temporarily retained awaiting receipt of dispensed product items therein, said drop chute being further adapted to release the dispensed cup in response to receipt of the dispensed product items therein and guide the same to the discharge location below said drop chute; an actuation mechanism including a rotatable actuator being adapted upon actuation to cause rotation of said product and cup dispensing mechanisms, and a handle coupled to said rotatable actuator and adapted to be turned by a user to actuate said rotatable actuator by rotating said rotatable actuator through an actuation cycle that causes rotation of said product and cup dispensing mechanisms through said respective product and cup dispensing cycles in a predetermined sequence so that the dispensed product items during a next actuation cycle are received in the dispensed cup being located at said intermediate location thereby ensuring that only a cup with product items therein is dropped to said discharge location during each actuation cycle; an access door being movable between a closed position and an opened position to allow a user to remove a dispensed cup containing product items from the discharge location when the access door in said opened position; and a cup shielding mechanism disposed adjacent to said drop chute and the discharge location and being actuated, in response to said access door being pivoted from said closed position to said opened position, to translate from a retracted position to an extended position wherein said extended position any person reaching past said opened access door into said housing is obstructed from being able to reach the dispensed cup disposed at the intermediate location in said drop chute above the discharge location where the cup will receive product items during the next actuation cycle.
 2. The machine of claim 1 wherein said cup shielding mechanism comprises a bed disposed adjacent to, below and rearwardly of said drop chute and adjacent to, above and rearwardly of the discharge location such that said bed extends horizontally in a rearward direction away from said access door.
 3. The machine of claim 2 wherein said cup shield mechanism also comprises a plank slideably mounted on said bed so as to be translatable relative to said bed between said retracted and extended positions.
 4. The machine of claim 3 wherein said cup shield mechanism also comprises a track formed on a top side of said bed in which said plank is slidably mounted.
 5. The machine of claim 3 wherein said cup shield mechanism also comprises an arm fixed to and extending rearwardly from a back side of said access door such that said arm pivotally moves with said access door.
 6. The machine of claim 5 wherein said cup shield mechanism further comprises a resiliently yieldable arrangement stationarily anchored spaced above said access door and extending between and interconnecting to an end of said arm, a rear end of said plank and a rear end of said bed so as to cause said plank to slide relative to said bed to said extended position in response to said access door being pivoted open, wherein said plank underlies the bottom of an empty cup at said intermediate location in said drop chute, and to the retracted position in response to said access door being pivoted closed, wherein said plank is withdrawn from under the empty cup at said intermediate location in said drop chute.
 7. The machine of claim 6 wherein said resiliently yieldable arrangement is a spring-and-cable arrangement.
 8. The machine of claim 6 wherein said resiliently yieldable arrangement is an angular spring arrangement.
 9. A sanitized vending machine, comprising: a housing; a product dispensing mechanism mounted in said housing, said product dispensing mechanism being adapted to hold a plurality of product items and rotate through a product dispensing cycle during which said product dispensing mechanism dispenses one or more of product items; a cup dispensing mechanism mounted in said housing, said cup dispensing mechanism being adapted to hold at least one stack of cups and rotate through a cup dispensing cycle during which said cup dispensing mechanism dispenses a cup from the stack; a drop chute mounted in said housing below and in communication with said product and cup dispensing mechanisms, said drop chute being adapted to receive the dispensed product items and cup and guide the dispensed product items and cup to an intermediate location in said drop chute, being spaced below said product and cup dispensing mechanisms and above a discharge location, where the dispensed cup is temporarily retained awaiting receipt of dispensed product items therein, said drop chute being further adapted to release the dispensed cup in response to receipt of the dispensed product items therein and guide the same to the discharge location below said drop chute; an actuation mechanism mounted to said housing and including a rotatable actuator being adapted upon actuation to cause rotation of said product and cup dispensing mechanisms, and an external handle coupled to said rotatable actuator and adapted to be turned by a user to actuate said rotatable actuator by rotating said rotatable actuator through an actuation cycle that causes rotation of said product and cup dispensing mechanisms through said respective product and cup dispensing cycles in a predetermined sequence so that the dispensed product items during a next actuation cycle are received in the dispensed cup being located at said intermediate location thereby ensuring that only a cup with product items therein is dropped to said discharge location during each actuation cycle; an external access door mounted to said housing and being movable between a closed position and an opened position to allow a user to remove a dispensed cup containing product items from the discharge location when the access door in said opened position; and a cup shielding mechanism mounted in said housing adjacent to said drop chute and the discharge location and being actuated, in response to said access door being pivoted from said closed position to said opened position, to translate from a retracted position to an extended position wherein said extended position any person reaching past said opened access door into said housing is obstructed from being able to reach the dispensed cup disposed at the intermediate location in said drop chute above the discharge location where the cup will receive product items during the next actuation cycle, said cup shielding mechanism comprising a bed disposed adjacent to, below and rearwardly of said drop chute and adjacent to, above and rearwardly of the discharge location such that said bed extends horizontally in a rearward direction away from said access door; a track formed on a top side of said bed; and a plank slideably mounted in said track on said bed so as to be translatable relative to said bed between said retracted and extended positions.
 9. The machine of claim 8 wherein said cup shield mechanism also comprises an arm fixed to and extending rearwardly from a back side of said access door such that said arm pivotally moves with said access door.
 10. The machine of claim 9 wherein said cup shield mechanism further comprises a resiliently yieldable arrangement stationarily anchored spaced above said access door and extending between and interconnecting to an end of said arm, a rear end of said plank and a rear end of said bed so as to cause said plank to slide relative to said bed to said extended position in response to said access door being pivoted open, wherein said plank underlies the bottom of an empty cup at said intermediate location in said drop chute, and to the retracted position in response to said access door being pivoted closed, wherein said plank is withdrawn from under the empty cup at said intermediate location in said drop chute.
 11. The machine of claim 10 wherein said resiliently yieldable arrangement is a spring-and-cable arrangement.
 12. The machine of claim 10 wherein said resiliently yieldable arrangement is an angular spring arrangement. 